CN112532948B

CN112532948B - Put in formula control station

Info

Publication number: CN112532948B
Application number: CN202011421700.XA
Authority: CN
Inventors: 陈思宇
Original assignee: CHENGDU XIWU SECURITY SYSTEM ALLIANCE CO LTD
Current assignee: CHENGDU XIWU SECURITY SYSTEM ALLIANCE CO LTD
Priority date: 2020-12-08
Filing date: 2020-12-08
Publication date: 2022-06-21
Anticipated expiration: 2040-12-08
Also published as: CN112532948A

Abstract

The invention discloses a throwing type monitoring station which comprises a box body, a processor, a lifting mast, a rotary table, a locking assembly, a solar power generation system, a laser radar, a GPS anemometer, a video monitoring assembly, a broadband communication assembly and a narrow-band communication assembly, wherein the box body comprises a bottom frame and a panel, and the locking assembly is fixed on the upper part of the panel; the solar power generation system comprises a solar cell module, an electronic box, an energy box and a storage battery, wherein the electronic box, the energy box, the storage battery, a laser radar and a lifting mast are all fixed in a bottom frame, a video monitoring module is connected to the lifting mast through a rotary table, and a broadband communication module is fixed on the lifting mast; the electronic box is respectively connected with the laser radar, the rotary table, the broadband communication assembly and the narrow-band communication assembly, and the energy box is connected with the GPS anemometer and the lifting mast; the processor is arranged in the box body. The invention solves the technical problems of incapability of moving, poor flexibility, complex installation and high cost of the existing fixed monitoring equipment.

Description

Put in formula control station

Technical Field

The invention relates to the technical field of monitoring, in particular to a throwing type monitoring station.

Background

The border situation of China is complex, the border line is long, and in addition, the border department is required to execute tasks at increasingly distant distances, and the border is generally a remote area with severe environment and rare people. At present, fixed monitoring equipment is generally adopted to monitor the environment, but the following technical problems exist in the practical application of the monitoring mode:

1. fixed monitoring cannot be moved, flexibility is poor, and monitoring range is poor.

2. The fixed monitoring equipment adopts a wired communication mode to transmit signals, and the arrangement of monitoring points needs to be relatively centralized. On the one hand, the installation of a fixed monitoring mode is usually very complicated, and on the other hand, the construction costs of the cable transmission and the installation costs of the monitoring device are also very expensive.

For this reason, it is necessary to develop a new monitoring technology to solve the above technical problems.

Disclosure of Invention

The wireless monitoring equipment is integrated into a foldable box body, and can be quickly released to any monitoring point to monitor according to needs, so that the technical problems that fixed monitoring equipment cannot be moved, the flexibility is poor, the installation is complex and the installation cost is high in the prior art are solved.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the utility model provides a put in formula control station which characterized in that: the solar wind power generation box comprises a box body, a processor, a lifting mast, a rotary table, a locking assembly, a solar power generation system, a laser radar, a GPS anemometer, a video monitoring assembly, a broadband communication assembly and a narrow-band communication assembly, wherein the box body comprises a bottom frame and a plurality of panels, the bottoms of the panels are hinged to the bottom frame, the panels can be folded and unfolded, the locking assembly is fixed to the upper portion of the panels, and when the locking assembly is loosened, the panels are unfolded outwards; the solar power generation system comprises a solar battery assembly, an electronic box, a power box and a storage battery which are connected in sequence, wherein the solar battery assembly, a GPS anemometer and a narrow-band communication assembly are all arranged on the inner surface of a panel, the electronic box, the power box, the storage battery, a laser radar and a lifting mast are all fixed in a bottom frame, a video monitoring assembly is connected to the lifting mast through a rotary table, and the wide-band communication assembly is fixed on the lifting mast; the electronic box is respectively connected with the laser radar, the rotary table, the broadband communication assembly and the narrow-band communication assembly, and the energy box is connected with the GPS anemometer and the lifting mast; the processor is installed in the box body and is respectively connected with the electronic box, the video monitoring assembly, the broadband communication assembly and the narrow-band communication assembly.

The locking assembly comprises a cross and a connecting plate, wherein L-shaped connecting pieces are respectively fixed at four ends of the cross, and limiting steps for limiting the panel are arranged on the L-shaped connecting pieces; the cross is fixedly connected with the shell of the video monitoring assembly through a connecting plate.

The outer surface of the panel is provided with a folding frame used for supporting the panel when the panel is unfolded outwards.

The processor is integrated within a video surveillance assembly.

The bottom of box still is fixed with support piece all around, support piece includes leveling foot cup, lead screw, altitude mixture control spare, support, upper junction spare and lower guide, and the lead screw is fixed on leveling foot cup, and the support passes through altitude mixture control spare to be fixed on the lead screw, and upper junction spare is fixed on the upper portion of support, and lower guide is installed in the lower part of support, all is equipped with the connection screw on upper junction spare and the lower guide, and support piece is fixed all around the underframe through connecting the screw.

The support comprises three rectangular tubes which are fixed into a right-angled triangle structure, wherein one end of each transverse rectangular tube is fixed on the screw rod through a height adjusting piece, the other end of each transverse rectangular tube is symmetrically provided with an optical axis, and the lower guide piece is installed on the optical axis; the lower end of the inclined rectangular pipe is fixed on the transverse pipe, and the upper end of the inclined rectangular pipe extends outwards to the position above the vertical rectangular pipe and is fixedly connected with the upper connecting piece.

The upper connecting piece comprises a fixing head, a U-shaped seat, a bolt, a mandrel and a cylindrical pin, the lower part of the fixing head is fixed on the bracket, the upper part of the fixing head is provided with an upper opening slotted hole for the bolt to rotate from vertical to horizontal, the middle part of the fixing head is transversely provided with an arc-shaped groove matched with the mandrel, and the arc-shaped groove is communicated with the upper opening slotted hole; the body of rod tip of bolt is equipped with and supplies cylindric lock male lockhole, and the middle part of dabber is equipped with the location screw with bolt cooperation locking, is equipped with the connection screw on the U-shaped seat, is used for keeping away the position hole and the pinhole of symmetry that keep away the position to the bolt when transversely rotating the bolt, and the U-shaped seat passes through pinhole movable mounting at the spindle.

The U-shaped seat comprises a plate body and vertical ear plates symmetrically fixed at two ends of the plate body, the avoiding holes are formed in the middle of the plate body, the connecting screw holes are formed in the periphery of the avoiding holes in the plate body, and the pin holes are formed in the vertical ear plates respectively.

The fixed head is of an arc-shaped structure, and a step matched with the bolt and the nut is arranged on the surface of the fixed head corresponding to the bottom of the upper opening slotted hole.

The lower guide piece comprises an integrally formed U-shaped portion and a connecting portion, clamping grooves matched with the optical axis are symmetrically formed in the U-shaped portion, and connecting screw holes are formed in the connecting portion.

The screw rod is provided with threads, the height adjusting piece comprises at least two nuts in threaded connection with the screw rod, and the support is fixed on the screw rod through the nuts.

The invention has the advantages that:

1. the invention designs a throwing type monitoring station which mainly comprises a box body, a processor, a lifting mast, a rotary table, a locking assembly, a solar power generation system, a laser radar, a GPS anemometer, a video monitoring assembly, a broadband communication assembly and a narrow-band communication assembly. In addition, effective transmission of monitoring signals can be guaranteed through the broadband communication assembly and the narrow-band communication assembly, a transmission line does not need to be built, and cost is further reduced. The power demand of the monitoring station can be guaranteed through the solar power generation system, and the solar power generation system has the advantages of better environmental protection, higher reliability and the like.

2. According to the invention, through the locking assembly with a specific structure, the box body has a stable structure before being unfolded, so that the integral transportation of the monitoring station is facilitated, and all parts in the box body can be effectively protected.

3. The folding frame can support the panel when the panel is unfolded outwards, so that the panel is prevented from touching the ground, the damage of the panel caused by touching the ground is prevented, and the neatness of the panel is ensured.

4. The invention integrates the processor in the video monitoring component, which is not only beneficial to protecting the processor, but also realizes the integration of the equipment.

5. The support piece consisting of the leveling foot cup, the screw rod, the height adjusting piece, the bracket, the upper connecting piece and the lower guide piece can stably support the box body to prevent the box body from falling to the ground, has the functions of quick installation and disassembly, and is convenient for adjusting the height of the bracket.

6. The support is formed by fixing the three rectangular tubes, so that the strength and the rigidity of the support are better.

7. The upper connecting piece mainly comprises a fixing head, a U-shaped seat, a bolt, a mandrel and a cylindrical pin, and all parts in the upper connection adopt specific structures, connection and position relations, so that the supporting piece has the functions of inverted buckle type pressing and stress self-locking on one hand, and the rapid installation and disassembly of the supporting piece are realized. On the other hand, the bolt can be screwed down to ensure that the supporting piece does not fall off, and the stability of the support is improved.

8. The fixing head is designed into an arc-shaped structure, and the surface of the fixing head corresponding to the bottom of the upper opening slotted hole is provided with the step matched with the bolt and the nut, so that the structure is favorable for improving the stability and the reliability of the bolt after being tightened and preventing the bolt from loosening.

9. The connecting structure realizes the connection of the bracket and the lower guide piece through the optical axis and the clamping groove, and has the advantages of simple connecting structure, convenience in disassembly and assembly, good reliability and the like.

10. The invention realizes the adjustment of the height of the bracket by adopting a thread mode and has the advantages of simple structure and convenient adjustment.

11. When the intelligent monitoring system is in actual use, the throwing type monitoring station does not need to be wired, and the environmental adaptability of the equipment is extremely strong, so that the monitoring station can move as required. In addition, a new monitoring station can be added at a proper position as required to form a monitoring network, and the problems of rewiring, cable replacement and the like do not need to be considered.

12. The invention reduces the cost of cable laying in the early stage, the installation cost of fixed monitoring equipment and the labor cost in later maintenance, simultaneously reduces the complex line inspection and maintenance work, only needs to regularly inspect the front-end equipment, the number transmission module and the like, and can also more quickly find out the reason and restore the normal operation when the fault occurs.

Drawings

FIG. 1 is a schematic structural view before expansion of example 1;

FIG. 2 is a schematic view of the expanded structure of embodiment 1;

FIG. 3 is an electrical connection block diagram of embodiment 1;

FIG. 4 is a schematic structural view of a lock assembly in embodiment 1;

FIG. 5 is a schematic view showing an assembling structure of the supporting member in embodiment 2;

FIG. 6 is a schematic front view of the supporting member according to embodiment 2;

fig. 7 is a structural diagram illustrating a starting state when the support member is connected to the bottom frame in embodiment 2;

fig. 8 is a structural diagram illustrating an intermediate state when the support member is connected to the bottom frame in embodiment 2;

fig. 9 is a structural view illustrating a completed state when the support member is connected to the bottom frame in embodiment 2;

labeled as: 1. leveling feet cup, 2, screw rod, 3, height adjusting piece, 4, bracket, 5, upper connecting piece, 6, lower guiding piece, 7, optical axis, 8, fixing head, 9, U-shaped seat, 10, bolt, 11, mandrel, 12, cylindrical pin, 13, upper opening slotted hole, 14, arc-shaped groove, 15, lock hole, 16, positioning screw hole, 17, avoiding hole, 18, pin hole, 19, connecting screw hole, 20, bottom frame, 21, panel, 22, folding frame, 23, lifting mast, 24, rotary table, 25, locking assembly, 26, laser radar, 27, GPS anemometer, 28, video monitoring assembly, 29, broadband communication assembly, 30, narrow-band communication assembly, 31, solar cell assembly, 32, electronic box, 33, energy source box, 34, storage battery, 35, cross, 36, connecting plate, 37, sling, 38, eccentric pulling hook, 39, L-shaped connecting piece, 40, limiting step, 41. and (7) hanging and buckling.

Detailed Description

Example 1

The embodiment discloses a drop-in monitoring station, as shown in fig. 1-3, which comprises a box body, a processor, a lifting mast 23, a rotary table 24, a locking assembly 25, a solar power generation system, a laser radar 26, a GPS anemometer 27, a video monitoring assembly 28, a broadband communication assembly 29 and a narrowband communication assembly 30, wherein the box body comprises a bottom frame 20 and a plurality of foldable panels 21, the bottoms of which are hinged on the bottom frame 20; the box body is preferably of a rectangular parallelepiped structure, and correspondingly, the number of the panels 21 is four, and the panels are respectively hinged on four sides of the bottom frame 20. The locking assembly 25 is fixed on the upper part of the panel 21 and used for locking the panel 21 and enabling the panel 21 to form a complete box body structure on the bottom frame 20; when the locking assembly 25 is released, the panels 21 may be extended outwardly and expose the monitoring equipment within the enclosure. Further, the locking assembly 25 may be of conventional construction, such as a fastener, as long as it is capable of effectively securing the four panels 21. The solar power generation system comprises a solar cell module 31, an electronic box 32, an energy box 33 and a storage battery 34 which are connected in sequence, wherein the energy box 33 is used for controlling power supply and charging of the storage battery 34, the solar cell module 31, a GPS anemometer 27 and a narrow-band communication module 30 are all arranged on the inner surface of a panel 21, the electronic box 32, the energy box 33, the storage battery 34, a laser radar 26 and a lifting mast 23 are all fixed in a bottom frame 20, a video monitoring module 28 is connected to the lifting mast 23 through a rotary table 24, and a wide-band communication module 29 is fixed on the lifting mast 23; the electronic box 32 is respectively connected with the laser radar 26, the rotary table 24, the broadband communication assembly 29 and the narrow-band communication assembly 30, and the energy box 33 is connected with the GPS anemometer 27 and the lifting mast 23; the processor is mounted within the housing, preferably the processor is integrated within the video surveillance assembly 28, and the processor is connected to the electronics box 32, the video surveillance assembly 28, the broadband communication assembly 29, and the narrowband communication assembly 30, respectively.

In this embodiment, the video surveillance assembly 28 includes an infrared thermal imager, a visible light camera, and an auxiliary illumination source. The laser radar 26 can detect and alarm targets within the radius of 50m, and the video monitoring component 28 is matched with the laser radar 26 so as to achieve dead-angle-free monitoring. The broadband communication assembly 29 and the narrow-band communication assembly 30 are antennas with different frequency bands, the broadband communication assembly 29 can be fixed on the upper portion of the lifting mast 23, and the narrow-band communication assembly 30 can be fixed on the panel 21 through a support rod. The GPS anemometer 27 is preferably fixed to one of the narrow width panels 21 by a strut. The solar cell module 31 is preferably arranged on two of the panels 21 with wider width, and in order to further reduce the weight of the monitoring station, the solar cell module 31 preferably uses a flexible solar cell film. In order to further improve the power generation effect and ensure the sufficiency of power supply, the solar cell films are preferably arranged on two panels 21 with wider widths, and the number of the solar cell films on each panel 21 is two. After the panels 21 are opened outwards, the two solar cell films on each panel 21 can be unfolded towards the two sides of the long side direction of the panel 21 respectively, so that the illumination area of the solar cell films is increased. Preferably, the number of the storage batteries 34 is two, when one of the storage batteries 34 works, the other storage battery is charged by the solar cell module 31, and the two storage batteries 34 work alternately, so that the purpose of long-time monitoring is achieved.

In this embodiment, the turntable 24 adopts a dual-drive worm and gear structure, and can realize rotation in a single-axis pitch direction of-60 °/+35 ° and independent rotation in a double-axis horizontal direction of ± 170 °; the rotary table 24 is mounted on the top of the mast and can respectively drive the video monitoring assembly 28 and the broadband communication assembly 29 to rotate in the +/-170-degree direction, and in addition, the rotary table 24 can also drive the video monitoring assembly to rotate in the-60-degree/35-degree pitching manner. The mast adopts a screw rod 2 lifting structure and has the functions of electric lifting, manual emergency operation, self-locking of any position in a stroke range, limiting protection of a limit position and the like.

In this embodiment, the modular design is preferably adopted for each component in the box body, so that the integrity of the monitoring equipment is ensured, and the installation and debugging requirements of the equipment are met.

The implementation process of the embodiment is as follows:

1. the monitoring device shown in fig. 1 is in a transportable state, which can be transported to a designated monitoring point by means of a transport vehicle.

2. The monitoring device shown in fig. 2 is in an operating state, and after the monitoring device is transported to a designated monitoring point, the locking assembly 25 is loosened, the panel 21 is unfolded outwards, the solar cell assembly 31 is unfolded, and the GPS anemometer 27 and the narrow-band communication assembly stand on the panel 21 through the support rod.

3. And turning on a switch of the storage battery 34 to supply power to all equipment, accessing the computer into the electronic box 32, controlling the lifting mast 23 to rise, controlling the rotary table 24 to drive the broadband antenna to rotate to search signals, and establishing connection with a command center.

4. The field image can be transmitted back to the command center in real time through the broadband communication component 29, the real-time monitoring image transmitted back by the monitoring station is checked through a computer of the command center, and the laser radar 26 can feed back suspicious targets within the radius of 50m and give an alarm. The battery 34 condition may also be monitored in real time to facilitate periodic maintenance of the monitoring station. In addition, the video monitoring assembly, the rotary table 24 and the lifting mast 23 can be remotely controlled by a command center computer, and video images of a designated area can be observed as required. Meanwhile, the command center can also carry out remote control and state monitoring on the monitoring station through the narrow-band communication component 30.

Example 2

This embodiment is substantially the same as embodiment 1, and is mainly different in that the structure of the lock assembly 25 is modified, as shown in fig. 4, and the modified lock assembly 25 includes a cross 35 and a connecting plate 36. Wherein, cross 35 preferably adopts many square steel pipes welding to form, has reliable intensity and steadiness. The four ends of the cross 35 are respectively fixed with L-shaped connecting pieces 39 through screws, at least one, preferably two L-shaped connecting pieces 39 are arranged at each end, and the two L-shaped connecting pieces 39 can be fixed together through connecting blocks. The L-shaped connecting piece 39 is provided with a limiting step 40 for limiting the panel 21, the upper part of the panel 21 is provided with a limiting strip matched with the limiting step 40, and the panel 21 can be fixed above the bottom frame 20 through the matching of the limiting step 40 and the limiting strip. The connecting plate 36 is fixed to the middle of the cross 35 by screws, and the connecting plate 36 is fixedly connected to the housing of the video monitoring assembly 28 by a connecting member such as a screw.

Adopt this embodiment locking Assembly 25, the steadiness and the reliability after having improved the box locking are convenient for transport. And the locking can be released by loosening the screw rod between the connecting plate 36 and the shell of the video monitoring assembly 28, so that the panel 21 is in an expandable state, and the locking releasing device has the advantages of simplicity in operation, high locking releasing speed and the like.

Further, in order to facilitate the hanging and transportation of the whole monitoring station, hanging pieces are respectively fixed on four sides of the box body in the embodiment, each hanging piece comprises a hanging strip 37 and a hanging buckle 41, the lower end of each hanging strip 37 is fixed on the bottom frame 20, and the upper end of each hanging strip is fixedly connected with the corresponding hanging buckle 41. When the monitoring station is used, the four hanging buckles 41 are hung by a crane, and then the monitoring station can be lifted. In order to prevent the hanging strip 37 from being scattered and the hanging buckle 41 from shaking, a vertical limiting groove is formed in the panel 21, and a plurality of eccentric pulling hooks 38 are fixed to the cross 35. The lower ends of the hanging strips 37 respectively penetrate through the vertical limiting grooves and then are fixed on the bottom frame 20, and the hanging buckles 41 at the upper ends of the hanging strips 37 are respectively connected with the eccentric pulling hooks 38 when not being transported. Wherein, the vertical spacing groove is spacing to suspender 37, prevents suspender 37 from being scattered. The hanging buckle 41 is tightened by eccentrically pulling the hook 38, and the hanging buckle 41 is prevented from shaking.

Example 3

In addition to embodiment 1 or embodiment 2, the present embodiment is provided with a folding leg 22 movably by a hinge on the outer surface of the panel 21. As shown in fig. 1, the structure and number of the folding legs 22 are not limited, and when the box body is in a locking state, the folding legs 22 are close to the panel 21; the panel 21 is supported by the rotatable folding leg 22 when the case is unfolded outward to prevent the panel 21 from contacting the ground, thereby protecting the panel 21.

Example 4

On the basis of any one of the embodiments 1 to 3, in order to prevent the box body from falling to the ground and realize the adjustment of the height of the box body, the support piece is further fixed around the bottom of the box body in the embodiment. As shown in fig. 5-6, the supporting member comprises a leveling cup 1, a screw rod 2, a height adjusting member 3, a bracket 4, an upper connecting member 5 and a lower guiding member 6, the screw rod 2 is fixed on the leveling cup 1, the bracket 4 is fixed on the screw rod 2 through the height adjusting member 3, the upper connecting member 5 is fixed on the upper portion of the bracket 4, the lower guiding member 6 is installed on the lower portion of the bracket 4, the upper connecting member 5 and the lower guiding member 6 are both provided with connecting screw holes 19, and the supporting member is fixed around a bottom frame 20 through the connecting screw holes 19, thereby supporting the box body.

Specifically, the structure, position and connection relationship of the supporting member are described in detail below with reference to fig. 5, as follows:

the support 4 comprises three structures which have rigidity and strength and play a supporting role, the structures are preferably rectangular tubes made of stainless steel materials, and the three rectangular tubes are preferably welded and fixed into a right-angled triangle structure. Wherein, one end of a transverse rectangular tube (a rectangular tube arranged transversely) is fixed on the screw rod 2 through a height adjusting piece 3, the other end is symmetrically fixed with a convex optical axis 7, and a lower guide piece 6 is arranged on the optical axis 7; the lower end of the inclined rectangular pipe (the rectangular pipe arranged in an inclined way) is fixed on the transverse pipe, and the upper end of the inclined rectangular pipe extends outwards to the upper part of the vertical rectangular pipe (the rectangular pipe arranged in a vertical way) and is fixedly connected with the upper connecting piece 5.

The upper connecting piece 5 comprises a fixed head 8, a U-shaped seat 9, a bolt 10, a mandrel 11 and a cylindrical pin 12, wherein,

the fixing head 8 is preferably an arc structure, the lower part of the fixing head is fixed on the bracket 4, the upper part of the fixing head is provided with an upper opening slot hole 13 for the bolt 10 to rotate from the vertical direction to the transverse direction, the middle part of the fixing head is transversely provided with an arc-shaped groove 14 matched with the core shaft 11, and the arc-shaped groove 14 is communicated with the upper opening slot hole 13. Wherein, in order to guarantee the steadiness of being connected between upper link 5 and the underframe 20, still set up the step with bolt 10 nut looks adaptation on the fixed head 8 corresponding to the bottom of upper shed slotted hole 13 on the surface, can guarantee through this step that stability and reliability after bolt 10 screws up better, prevent that bolt 10 is not hard up.

The bolt 10 comprises a nut and a rod body, a lock hole 15 for inserting the cylindrical pin 12 is formed in the end portion of the rod body, and the cylindrical pin 12 is tightly matched and connected with the lock hole 15. The middle part of the mandrel 11 is provided with a positioning screw hole 16, the positioning screw hole 16 is in threaded connection with the rod body of the bolt 10, and the bolt 10 is locked by matching the positioning screw hole 16 and the rod body. When the bolt is connected, the end of the rod body passes through the positioning screw hole 16, and then the cylindrical pin 12 penetrates into the lock hole 15, so that the bolt 10 can be prevented from falling off.

The U-shaped seat 9 is provided with a connecting screw hole 19, a position avoiding hole 17 for avoiding the bolt 10 when the bolt 10 is transversely rotated, and symmetrical pin holes 18. Specifically, the U-shaped seat 9 comprises a plate body and vertical ear plates symmetrically fixed at two ends of the plate body, and the position-avoiding hole 17 is a strip-shaped hole vertically arranged in the middle of the plate body and used for reserving a vacant space for avoiding the position when the bolt 10 rotates from vertical to horizontal; the connecting screw holes 19 are arranged around the position avoiding holes 17 on the plate body, and the pin holes 18 are respectively arranged on the vertical ear plates. The U-shaped seat 9 is movably arranged on the mandrel 11 through a pin hole 18, and the mandrel 11 can rotate. When the upper connecting piece 5 is integrally installed on the bracket 4, a certain gap is formed between the plate body of the U-shaped seat 9 and the bracket 4.

Lower guide 6 includes integrated into one piece's U-shaped portion and connecting portion, and the symmetry is provided with the draw-in groove with 7 looks adaptations of optical axis in the U-shaped portion, and lower guide 6 accessible draw-in groove card is on the optical axis 7 of support 4. The connecting part is provided with a connecting screw hole 19 for being connected with the bottom frame 20, and the position of the connecting part and the position of the connecting screw hole 19 on the connecting part are set according to actual requirements. When the lower guide 6 is integrally mounted on the bracket 4, a certain gap is formed between the bottom surface of the U-shaped portion and the bracket 4.

The screw rod 2 is provided with threads, the height adjusting piece 3 comprises at least two nuts in threaded connection with the screw rod 2, and the support 4 is fixed on the screw rod 2 through the nuts. The height of the support 4 can be adjusted by adjusting the position of the screw cap on the screw 2.

This embodiment support piece has quick assembly disassembly's function, adopts four sets of support piece cooperations supporting box bodies usually during the in-service use, and its implementation principle is as follows:

1. as shown in fig. 7, the U-shaped seat 9 and the lower guide 6 of the upper connecting member 5 are first fixed to the bottom frame 20 by screws, the end of the bolt 10 is inserted through the positioning screw hole 16 of the core shaft 11, and the cylindrical pin 12 is inserted into the locking hole 15 to prevent the bolt 10 from falling.

2. As shown in fig. 8, the bracket 4 is firstly inclined, the optical axis 7 of the bracket 4 is clamped into the clamping groove of the lower guide part 6, and then the bracket 4 is rotated until the arc-shaped groove 14 on the fixed head 8 contacts with the mandrel 11, so that the supporting part can be stressed and self-locked due to the self weight of the box body.

3. As shown in fig. 9, the control bolt 10 is rotated downwards from the upper part of the upper opening slot 13, so that the bolt 10 is rotated from a vertical state to a horizontal state, the clearance hole 17 on the U-shaped seat 9 can be matched with the positioning screw hole 16 on the core shaft 11 during the rotation process to tighten the bolt 10 until the nut of the bolt 10 is tightly contacted with the step on the fixed head 8, and the whole supporting member is firmly fixed on the bottom frame 20, thereby supporting the box body.

In actual use, the U-shaped seats 9, bolts 10, mandrels 11, etc. in the lower guide 6 and upper link 5 may be fixed to the base frame 20 in advance, and the leveling cups 1, the lead screws 2, the height adjusters 3, and the brackets 4 may be additionally placed at one side. When the installation is needed, only the bracket 4 is connected with the upper connecting piece 5 and the lower guide piece 6 and the bolt 10 is screwed, and otherwise, the disassembly of the bracket 4 can be realized. The whole operation process is very simple, and the disassembly and assembly speed of the bracket 4 is very convenient.

While the invention has been described with reference to specific embodiments, any feature disclosed in this specification may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise; all of the disclosed features, or all of the method or process steps, may be combined in any combination, except mutually exclusive features and/or steps.

Claims

1. The utility model provides a put in formula control station which characterized in that: the solar energy wind power generation system comprises a box body, a processor, a lifting mast (23), a rotary table (24), a locking component (25), a solar energy power generation system, a laser radar (26), a GPS anemometer (27), a video monitoring component (28), a broadband communication component (29) and a narrowband communication component (30), wherein the box body comprises a bottom frame (20) and a plurality of panels (21) with bottoms hinged to the bottom frame (20) and capable of being unfolded, the locking component (25) is fixed to the upper portion of the panels (21), and when the locking component (25) is loosened, the panels (21) are unfolded outwards; the solar power generation system comprises a solar battery assembly (31), an electronic box (32), an energy box (33) and a storage battery (34) which are connected in sequence, wherein the solar battery assembly (31), a GPS anemometer (27) and a narrow-band communication assembly (30) are all arranged on the inner surface of a panel (21), the electronic box (32), the energy box (33), the storage battery (34), a laser radar (26) and a lifting mast (23) are all fixed in a bottom frame (20), a video monitoring assembly (28) is connected to the lifting mast (23) through a rotary table (24), and the wide-band communication assembly (29) is fixed to the lifting mast (23); the electronic box (32) is respectively connected with the laser radar (26), the rotary table (24), the broadband communication component (29) and the narrow-band communication component (30), and the energy box (33) is connected with the GPS anemometer (27) and the lifting mast (23); the processor is arranged in the box body and is respectively connected with the electronic box (32), the video monitoring component (28), the broadband communication component (29) and the narrow-band communication component (30);

support pieces are further fixed on the periphery of the bottom of the box body and comprise leveling foot cups (1), screw rods (2), height adjusting pieces (3), supports (4), upper connecting pieces (5) and lower guide pieces (6), the screw rods (2) are fixed on the leveling foot cups (1), the supports (4) are fixed on the screw rods (2) through the height adjusting pieces (3), the upper connecting pieces (5) are fixed on the upper portions of the supports (4), the lower guide pieces (6) are installed on the lower portions of the supports (4), connecting screw holes (19) are formed in the upper connecting pieces (5) and the lower guide pieces (6), and the support pieces are fixed on the periphery of the bottom frame (20) through the connecting screw holes (19);

the support (4) comprises three rectangular tubes which are fixed into a right-angled triangle structure, wherein one end of each transverse rectangular tube is fixed on the screw rod (2) through the height adjusting piece (3), the other end of each transverse rectangular tube is symmetrically provided with the optical axis (7), the lower guide piece (6) comprises a U-shaped part and a connecting part which are integrally formed, clamping grooves matched with the optical axes (7) are symmetrically arranged on the U-shaped part, and the lower guide piece (6) is clamped on the optical axis (7) of the support (4) through the clamping grooves; the lower end of the inclined rectangular pipe is fixed on the horizontal rectangular pipe, and the upper end of the inclined rectangular pipe extends outwards to the upper part of the vertical rectangular pipe and is fixedly connected with the upper connecting piece (5).

2. A drop type monitoring station as claimed in claim 1, wherein: the locking assembly (25) comprises a cross (35) and a connecting plate (36), four ends of the cross (35) are respectively fixed with an L-shaped connecting piece (39), and the L-shaped connecting pieces (39) are provided with limiting steps (40) for limiting the panel (21); the cross (35) is fixedly connected with the shell of the video monitoring assembly (28) through a connecting plate (36).

3. A drop type monitoring station as claimed in claim 2, wherein: the outer surface of the panel (21) is provided with a folding frame (22) for supporting the panel (21) when the panel (21) is unfolded outwards.

4. A drop type monitoring station as claimed in claim 1, wherein: the upper connecting piece (5) comprises a fixing head (8), a U-shaped seat (9), a bolt (10), a core shaft (11) and a cylindrical pin (12), the lower part of the fixing head (8) is fixed on the support (4), the upper part of the fixing head is provided with an upper opening slot hole (13) for the bolt (10) to rotate from vertical to horizontal, the middle part of the fixing head is transversely provided with an arc-shaped groove (14) matched with the core shaft (11), and the arc-shaped groove (14) is communicated with the upper opening slot hole (13); the bolt is characterized in that a lock hole (15) for inserting the cylindrical pin (12) is formed in the end portion of a rod body of the bolt (10), a positioning screw hole (16) matched and locked with the bolt (10) is formed in the middle of the core shaft (11), a connecting screw hole (19) is formed in the U-shaped seat (9), a position avoiding hole (17) and symmetrical pin holes (18) are formed in the bolt (10) and used for avoiding the bolt when the bolt (10) is rotated transversely, and the U-shaped seat (9) is movably mounted on the core shaft (11) through the pin holes (18).

5. A drop-in monitoring station as claimed in claim 4, characterized in that: the U-shaped seat (9) comprises a plate body and vertical ear plates symmetrically fixed at two ends of the plate body, a avoiding hole (17) is formed in the middle of the plate body, connecting screw holes (19) are formed in the periphery of the avoiding hole (17) in the plate body, and pin holes (18) are formed in the vertical ear plates respectively.

6. A drop-in monitoring station as claimed in claim 4, characterized in that: the fixing head (8) is of an arc-shaped structure, and a step matched with the bolt (10) and the nut is arranged on the surface of the fixing head (8) corresponding to the bottom of the upper opening slotted hole (13).

7. A drop-in monitoring station as claimed in claim 1, characterized in that: the connecting part is provided with a connecting screw hole (19).

8. A drop type monitoring station as claimed in claim 1, wherein: the screw rod (2) is provided with threads, the height adjusting piece (3) comprises at least two nuts in threaded connection with the screw rod (2), and the support (4) is fixed on the screw rod (2) through the nuts.